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100% Renewable Energy For Australia Not So Costly

An exploratory study into 100% renewable energy scenarios for Australia has concluded that its impact on consumer electricity prices over the next few decades may be no more than the increases in the last few years to support much criticised network upgrades and the introduction of the carbon price.

The report by the Australian Energy Market Operator (AEMO) – you can access the executive summary here and the draft report here — canvasses the potential costs and practicality of transforming Australia’s coal-dependent electricity system to 100 per cent renewables, by either 2030 or 2050. It creates two scenarios – depending on the pace of falls in the cost of renewable and storage technologies – but both are considered conservative.

It concludes that the cost could range between $219 and $338 billion and would require wholesale electricity prices of $111-$133/MWh (more than double the current price). Unfortunately, and somewhat controversially, AEMO was not asked to compare these forecasts with “business as usual,” but it does provide one interesting set of data that does put it into some perspective.

The first is the impact on retail prices. See the table below (excuse the draft stamp):

It shows that the impact on consumer electricity costs from a 100% renewables scenario could be as little as 6.6c/kWh, assuming a reasonably optimistic view of technology costs. That compares to the forecast national average increases in retail costs made by the Australian Energy Market Commission from 2011/12 to 2014/15 of 5.4c/kWh. Taking in the two earlier years of increases, the jump in retail prices has been higher.

This should not come as a surprise. The AEMO study is almost unique in the world in not taking into account BAU. The International Energy Agency, for instance, last year estimated that the world needs to spend an extra $36 trillion on its energy systems by 2050 if it is to meet its 2C scenario. But it points that that this will be more than offset by $US100 trillion in savings through reduced use of fossil fuels.

The second thing is to consider wholesale prices. A recent ”government Policy” scenario from Treasury has a wholesale price of $110/MWh in 2030 (compared with $111 to $133/MWh for 100% renewables). That includes a carbon price of around $52/tCO2 in 2030. (Hands up who thinks there will be no carbon price in 2030. Yes, you too, Greg and Tony).

Apart from the lack of comparison with BAU, the AEMO report was hamstrung by a number of other factors, most notably its forced reliance on the technology costs produced last year by the Bureau of Resource Economics.

RenewEconomy has on many occasions questioned those forecasts, which even for 2035 are above current market prices for technologies such as concentrated solar thermal, and assumes, quite bizarrely, no fall in solar PV costs for nearly a whole decade through much of the 2020s.

Still, the AEMO report – although “exploratory” and “limited” in its own words – does come to some useful conclusions. The first is that it says “it is valuable to note that this operational review has uncovered no fundamental limits to 100 per cent renewables.” In other words, it is not a question of can, but how much.

This graphic below probably give the best summation of how the various technologies could be deployed in the various scenarios. Note the large role played by rooftop PV. This would require billions of dollars of investment by households.

This is likely to happen, but only because it is a cheaper option for them than relying entirely on the grid for their electricity, even (or possibly especially) in the 100 per cent renewables scenario. But most scenarios suggest a much greater role for CST and other renewables, particularly wind, which is given only a moderate role in the 2030 scenarios despite its current status as the cheapest renewable source.

The AEMO report says the key question is whether renewables can service peak demand. It makes two observations here – one is that the proliferation of solar PV – is likely to remove the evening summer peak – and the biggest peak will be in meeting winter heating requirements.

It says challenges of meeting peak demand “are generally regarded as not insurmountable”, but it notes that energy storage is key to managing supply and demand, to smooth output, and cover periods when there is not much wind and little sun.

It modelled three storage technologies – CST with storage such as molten salts, existing pumped hydro, and biogas-fuelled peaking plants,which it noted could add enough “low cost flexibility” to cover any anticipated periods of low generation.

“The modelling shows that the combined dispatch of all three technologies is sufficient to match demand in all four cases, even with the rapid decline of PV generation in the late afternoon,” it noted. Its modelling did not include battery storage or air compression, as it decided that these technologies were still in their formative stages.

AEMO noted that its cost estimates did not include any allowance for the costs of any modifications required to the distribution networks, the cost of acquiring the required land for generation, or the costs of stranded assets (coal and gas fired generators). As for land, it estimates that would require between 2,400 sq kms (50kms by 50kms), and 5,000sq kms.

But it also notes that its modelling results are “highly sensitive” to the assumed technology cost reductions, and any changes to these would see corresponding changes to the modelling outputs. Given the electricity industry’s propensity to grossly overestimate the cost of renewable technologies, that means there is scope for greatly reduced costs.

And it should be kept in mind, most of Australia’s existing coal and gas fired generation needs to be replaced by 2045 – and as Bloomberg New Energy Finance have pointed out – the cheapest new build generation capacity is already wind, and will soon be joined by solar. That needs to be a critical equation is any assessment of the future, particularly when incorporating environmental costs, as UNSW pointed out.

And there is another missing piece to this assessment – and that is energy efficiency. The modelling is based on AEMO own long term demand forecasts, which have been shown to be pretty hopeless even in recent 12-month forecasts. It does not take into account the sort of energy efficiency gains that could, and should, be contemplated in coming decades.

The IEA, and just about every other major study, suggests energy efficiency should account for at least one third of future scenarios. It points out that it is the energy we don’t use that will be the cheapest and most effective. But that also means a greater diversion from business as usual.

(Final thought: One questions why the study was done without a BAU comparison. It is clear that Labor was a reluctant party to this study, part of an agreement with the Greens as part of the Clean Energy Future package. It was interesting to note that having tried to disguise the costs, it then leaked the final report to paper with the most visibly anti-renewable stance (AFR), and to a report who has written little on energy markets.)

About the Author

Giles Parkinson is the founding editor of RenewEconomy.com.au, an Australian-based website that provides news and analysis on cleantech, carbon, and climate issues. Giles is based in Sydney and is watching the (slow, but quickening) transformation of Australia's energy grid with great interest.

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Russell

“RenewEconomy has on many occasions questioned those forecasts, which even for 2035 are above current market prices for technologies such as concentrated solar thermal, and assumes, quite bizarrely, no fall in solar PV costs for nearly a whole decade through much of the 2020s.”

Has anyone done a study with realistic technology advances, or it that just too much of a wild guess at present? In a realistic/optimistic technology scenario, I assume that renewables wipe the floor with conventional and lead to significant electricity cost reductions.

http://zacharyshahan.com/ Zachary Shahan

Good question. & not that i’m aware of…

JustSaying

I sorry but not comparing today’s cost, and then saying it is electric is going to cost more is total BS. Your are saying if you but no green power then you don’t have to build any coal new plants, or those plants and their coal is free.

Ross

100% by 2030 should be easy for you.

Sun deprived Scotland has a target of 100% electricity from renewables by 2020.

addicted4444

Scotland also doesn’t have vast mines of coal to exploit.

At this point there is no technological reason preventing us from switching to majority clean energy, at very reasonable costs. The only pushback is politics by entrenched (and unfortunately, extremely rich) dirty economy interests.

Bob_Wallace

You might find this article on Giles’ site about the future of Australian coal interesting…

Thanks for the article. I think the most interesting aspect is that no one really believes China when China says they are gonna cut back on coal.

I think this is a mistake. For all its flaws, the Chinese system is really good at changing directions quickly when they see the need to do so. The rising cost of coal, dropping costs of renewable energy, the Beijing smog and increasing environment related unrest indicates to me that the Chinese government will be pushing clean energy much harder than anyone is really expecting.

And again, most of these optimistic growth scenarios are based on very reasonable expectations of increasing efficiencies in batteries and solar/wind power. None of them are factoring in any revolutionary breakthrough (which is very likely in battery tech especially, considering the amount of public, and private money being spent here).

Ross

The dirty fuel people’s wealth is going to look increasingly suspect in the years ahead. They’re spending hundreds of billions of dollars looking for new reserves when even the existing reserves are more than enough to take us through the 2 degrees Celcius target for so-called safe climate change.

Wind Energy

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